Graphene Oxide is a carbon-based material with 2-dimensional and oxygen-containing functional groups. In recent years, graphene oxide-based materials have attracted great interest by scientists. Properties of graphene oxide; Since it depends on its morphology, nature and reaction conditions, the properties of graphene oxide synthesized under different conditions are also different. Therefore, every graphene oxide synthesis study that enters the literature makes an important contribution. In this study, whether the syntheses obtained by changing the sodium nitrate concentration used in the Hummers method were successfully converted to graphene oxide and their changing structural properties were investigated by X-ray diffraction analysis. From the analysis results, it was determined that in the hexagonal graphite crystal; the characteristic sharp peak at 2θ:26.53° disappears after chemical oxidation and a new peak forms at 2θ:11.53°, the d layer spacing expands from 0.34 nm to 0.77 nm, the crystal diameter decreases from 34.56 nm to an average of 7.22 nm, and the number of layers decreases from an average of 102 to an average of 9. Accordingly, it can be said that the syntheses obtained under these conditions are graphene oxide samples with different properties and are in agreement with the literature.